Investigation of K sub(2)CO sub(3)-Catalyzed Pyrolysis and Steam Gasification of Coal Char

Pyrolysis and steam gasification experiments of coal char with and without K sub(2)CO sub(3) were performed using a thermogravimetric analyzer to investigate the effect of catalyst loading method on gasification reactivity at different temperatures (650-800 degree C), and an additional redox cycle e...

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Veröffentlicht in:	Energy technology (Weinheim, Germany) Germany), 2015-09, Vol.3 (9), p.961-967
Hauptverfasser:	Zhu, Huaili, Wang, Ximing, Zhang, Jingang, Yao, Kui, Yu, Guangsuo, Wang, Xingjun
Format:	Artikel
Sprache:	eng
Schlagworte:	Carbon Catalysis Catalysts Coal Cobalt Combustion Gasification Pyrolysis Reactors
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container_end_page	967
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container_title	Energy technology (Weinheim, Germany)
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creator	Zhu, Huaili Wang, Ximing Zhang, Jingang Yao, Kui Yu, Guangsuo Wang, Xingjun
description	Pyrolysis and steam gasification experiments of coal char with and without K sub(2)CO sub(3) were performed using a thermogravimetric analyzer to investigate the effect of catalyst loading method on gasification reactivity at different temperatures (650-800 degree C), and an additional redox cycle experiment of catalyzed char-steam gasification was conducted in a fixed-bed reactor. The results showed that, at low temperature, the solution impregnation method had a larger effect on the gasification reactivity than the physical blending method; at temperatures above 700 degree C, the differences of two methods diminished due to the high mobility of potassium. In catalytic pyrolysis, the release of CO and CO sub(2) indicated that K sub(2)CO sub(3) reacted with carbon. The redox cycle experiments suggest that the potassium reacted with carbon to produce intermediates of the form K sub(2)O sub(2)--C, K sub(2)O--C, and K sub(2)--C. The K sub(2)--C intermediate may help to explain the release of more H sub(2) during the initial period of catalytic coal char-steam gasification. New redox cycle: In this study, the process of potassium-catalyzed steam gasification of coal char is divided into two parts and a new redox cycle is proposed. At low temperatures, the K sub(2)O--C or K sub(2)--C reacts with H sub(2)O to release H sub(2) without CO, and upon heating the reactor, the K sub(2)O sub(2)--C reacts with K sub(2)CO sub(3) to release CO. The reaction mechanism could explain the release of more H sub(2) in the initial period of gasification.
doi_str_mv	10.1002/ente.201500094
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The results showed that, at low temperature, the solution impregnation method had a larger effect on the gasification reactivity than the physical blending method; at temperatures above 700 degree C, the differences of two methods diminished due to the high mobility of potassium. In catalytic pyrolysis, the release of CO and CO sub(2) indicated that K sub(2)CO sub(3) reacted with carbon. The redox cycle experiments suggest that the potassium reacted with carbon to produce intermediates of the form K sub(2)O sub(2)--C, K sub(2)O--C, and K sub(2)--C. The K sub(2)--C intermediate may help to explain the release of more H sub(2) during the initial period of catalytic coal char-steam gasification. New redox cycle: In this study, the process of potassium-catalyzed steam gasification of coal char is divided into two parts and a new redox cycle is proposed. At low temperatures, the K sub(2)O--C or K sub(2)--C reacts with H sub(2)O to release H sub(2) without CO, and upon heating the reactor, the K sub(2)O sub(2)--C reacts with K sub(2)CO sub(3) to release CO. 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The results showed that, at low temperature, the solution impregnation method had a larger effect on the gasification reactivity than the physical blending method; at temperatures above 700 degree C, the differences of two methods diminished due to the high mobility of potassium. In catalytic pyrolysis, the release of CO and CO sub(2) indicated that K sub(2)CO sub(3) reacted with carbon. The redox cycle experiments suggest that the potassium reacted with carbon to produce intermediates of the form K sub(2)O sub(2)--C, K sub(2)O--C, and K sub(2)--C. The K sub(2)--C intermediate may help to explain the release of more H sub(2) during the initial period of catalytic coal char-steam gasification. New redox cycle: In this study, the process of potassium-catalyzed steam gasification of coal char is divided into two parts and a new redox cycle is proposed. At low temperatures, the K sub(2)O--C or K sub(2)--C reacts with H sub(2)O to release H sub(2) without CO, and upon heating the reactor, the K sub(2)O sub(2)--C reacts with K sub(2)CO sub(3) to release CO. The reaction mechanism could explain the release of more H sub(2) in the initial period of gasification.</abstract><doi>10.1002/ente.201500094</doi></addata></record>
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subjects	Carbon Catalysis Catalysts Coal Cobalt Combustion Gasification Pyrolysis Reactors
title	Investigation of K sub(2)CO sub(3)-Catalyzed Pyrolysis and Steam Gasification of Coal Char
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